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5.) Consider the reaction below. Reaction: AH°r 2 ICI (g) 17.78 1 (g) Ch (g) (kJ/mole) 247.551 116.135 223.066 (J/mole K) Which would maximize the yield of products in this reaction? I. Increase temperature II. Decrease temperature III. Increase pressure IV. Decrease pressure V. Increase [L] VI. Decrease [Ch] B. I and V only C. I, III, and VI D. II and VI only A. II, IV, and V

5.) Consider the reaction below. Reaction: AH°r 2 ICI (g) 17.78 1 (g) Ch (g) (kJ/mole) 247.551 116.135 223.066 (J/mole K) Which would maximize the yield of products in this reaction? I. Increase temperature II. Decrease temperature III. Increase pressure IV. Decrease pressure V. Increase [L] VI. Decrease [Ch] B. I and V only C. I, III, and VI D. II and VI only A. II, IV, and V

Chemistry
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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5.) Consider the reaction below. Reaction: 2 ICI (g). L (g) Ch (g) 17.78 0. (K/mole) 247.551 116.135 223.066 (J/mole K) Which would maximize the yield of products in this reaction? I. Increase temperature II. Decrease temperature III. Increase pressure IV. Decrease pressure V. Increase [L] VI. Decrease [C2] A. II, IV, and V B. I and V only C. I, III, and V D. II and VI only Keywords: Le Chatelier's Principle, Chemical equilibrium, pressure change, temperature change, concentration change, endothermic, exothermic, heat-absorbing, heat-releasing, moles of gas, reaction quotient
Transcribed Image Text:5.) Consider the reaction below. Reaction: 2 ICI (g). L (g) Ch (g) 17.78 0. (K/mole) 247.551 116.135 223.066 (J/mole K) Which would maximize the yield of products in this reaction? I. Increase temperature II. Decrease temperature III. Increase pressure IV. Decrease pressure V. Increase [L] VI. Decrease [C2] A. II, IV, and V B. I and V only C. I, III, and V D. II and VI only Keywords: Le Chatelier's Principle, Chemical equilibrium, pressure change, temperature change, concentration change, endothermic, exothermic, heat-absorbing, heat-releasing, moles of gas, reaction quotient
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The reaction which moves forward and backwards both are known as reversible reactions. When the rate of forward and backward reaction becomes equal, an equilibrium is established in the reaction. 

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